CN113538187A

CN113538187A - Experiment implementation method and device, electronic equipment and storage medium

Info

Publication number: CN113538187A
Application number: CN202110838763.3A
Authority: CN
Inventors: 刘煊; 甄学文
Original assignee: Beijing Gaotu Yunji Education Technology Co Ltd
Current assignee: Beijing Gaotu Yunji Education Technology Co Ltd
Priority date: 2021-07-23
Filing date: 2021-07-23
Publication date: 2021-10-22

Abstract

The application discloses an experiment implementation method, an experiment implementation device, electronic equipment and a storage medium, and can solve the problems that animation production is complex and requirements for professional skills are high when some knowledge points are visually presented based on a Flash animation form in the prior art. The implementation method of the experiment comprises the following steps: responding to a selection command aiming at least two experimental components in a target experiment configuration interface, and determining the selected at least two experimental components as a target experimental component pack; responding a configuration command aiming at the target experiment component package, configuring target parameters for each target experiment component in the target experiment component package, and configuring a target incidence relation between each target experiment component; responding to an execution command aiming at the target experiment assembly package, determining a target calculation strategy corresponding to the target association relation based on the corresponding relation between the preset association relation and the calculation strategy, and obtaining and displaying an experiment result according to the target parameters and the target calculation strategy.

Description

Experiment implementation method and device, electronic equipment and storage medium

Technical Field

The present application relates to the technical field of experiment simulation, and in particular, to an experiment implementation method, an experiment implementation device, an electronic device, and a storage medium.

Background

In the related art, when a teacher shows a principle of a certain knowledge point in a certain subject to a student in a more vivid manner, an experimental manner may be generally adopted. However, the conventional experiment not only causes consumption of experimental equipment and increases cost, but also may cause safety accidents due to factors such as misoperation. Therefore, more and more teachers choose to adopt simulation experiments, and can use flash animation to show corresponding knowledge points, for example, a slider slides rapidly on a track at a speed of 3m/s through flash animation display, but flash animation production is complex, needs to depend on specific drawing software, and has high requirements on professional skills.

Disclosure of Invention

The embodiment of the application provides an experiment implementation method and device, electronic equipment and a storage medium, and can solve the problems that animation production is complex and requirements for professional skills are high when some knowledge points are visually presented based on a Flash animation form in the prior art.

In a first aspect, an embodiment of the present application provides an experiment implementation method, where the method includes:

responding to a selection command aiming at least two experimental components in a target experiment configuration interface, and determining the selected at least two experimental components as a target experimental component pack; the number of the target experiment component packages is at least one, the target experiment configuration interface comprises a plurality of experiment components, and each experiment component is used for realizing at least one function;

responding to a configuration command aiming at the target experiment component package, configuring target parameters for each target experiment component in the target experiment component package, and configuring a target incidence relation between each target experiment component;

responding to an execution command aiming at the target experiment assembly package, determining a target calculation strategy corresponding to the target association relation based on the corresponding relation between the preset association relation and the calculation strategy, and obtaining and displaying an experiment result according to the target parameter and the target calculation strategy.

In the embodiment of the application, at least two experimental components can be selected from a target experiment configuration interface according to experiment requirements to form a target experiment component package, then target parameters are configured for each target experiment component in the target experiment component package, and a target incidence relation between each target experiment component is configured. In the method, a user can display the experiment result in an animation mode only by selecting the relevant experiment components and configuring the corresponding target parameters and the target association relation, and compared with the method for manufacturing the Flash animation in the prior art, the method is simpler and more convenient to operate and has lower requirements on professional skills.

Optionally, before responding to the selected commands for at least two experimental components in the target experimental configuration interface, the method further comprises:

and responding to a selected command aiming at a target subject in the plurality of subjects, and displaying a target experiment configuration interface corresponding to the target subject.

In the embodiment of the application, the currently displayed target experiment configuration interface corresponds to a target subject, and the target subject can be regarded as a subject to which an experiment to be currently performed belongs, so that an experiment component required by the experiment to be currently performed can be quickly found from the current target experiment configuration interface.

Optionally, in response to a selected command for a target subject in the plurality of subjects, presenting a target experiment configuration interface corresponding to the target subject includes:

displaying an initial interface corresponding to the target subject, wherein the initial interface comprises at least two alternative experiment types, and each alternative experiment type corresponds to one sub-field in the target subject;

and responding to a selection command aiming at any one of the candidate experiment types in the initial interface, taking the selected candidate experiment type as a target experiment type, and displaying a target experiment configuration interface corresponding to the target experiment type.

In the embodiment of the application, the currently displayed target experiment configuration interface can display the experiment components required by the experiment in the subdivided field in the target subject, so that the experiment components required by the experiment to be implemented currently can be quickly found from the current target experiment configuration interface.

Optionally, the target discipline includes at least one of mathematics, biology, physics, and chemistry.

In the embodiment of the application, the target subject can be at least one of mathematics, biology, physics and chemistry, that is, the experiment platform can support experiments of various subjects, and is a relatively universal experiment platform.

Optionally, responding to the configuration command for the target experiment component package, configuring target parameters for each target experiment component in the target experiment component package, and configuring a target association relationship between each target experiment component includes:

responding to a batch configuration instruction aiming at least two target experiment components in the target experiment component package, configuring corresponding target parameters for the at least two target experiment components in batches, and configuring the incidence relation between each target experiment component in the at least two target experiment components and other target experiment components in batches; and/or the presence of a gas in the gas,

and responding to a configuration instruction aiming at a single target experiment component in the target experiment component package, configuring corresponding target parameters for the single target experiment component, and configuring the incidence relation between the single target experiment component and other target experiment components.

In the embodiment of the application, the corresponding target parameters and the target association relations can be configured for a plurality of target experimental components in batches according to actual requirements, and meanwhile, the target parameters and the target association relations can also be configured for a single target experimental component independently, so that the configuration process is flexible.

Optionally, the target experiment component package is saved.

In the embodiment of the application, the target experiment component package can be stored, so that the target experiment component package can be directly used subsequently, or a small amount of change is performed on the basis of the target experiment component package, so as to complete other experiments to be performed.

Optionally, before obtaining the experimental result, the method further comprises:

verifying the correctness of the configured target parameters of the target experimental components and the rationality of the configured target association relationship among the target experimental components;

and if the verification result is not passed, outputting alarm information, wherein the alarm information is used for indicating that the correctness of the target parameters configured by the target experimental components is not in accordance with the requirement and/or the reasonability of the configured target association relation between the target experimental components is not in accordance with the requirement.

In the embodiment of the application, after the corresponding target parameters and the target association relations are configured for the target experiment components, the correctness of the target parameters and the rationality of the target association relations can be verified, and the alarm information is output under the condition that the verification result is failed, so that a user is reminded to reconfigure the target parameters and/or the target association relations.

In a second aspect, an embodiment of the present application provides an apparatus for performing an experiment, the apparatus including:

the determining unit is used for responding to a selection command aiming at least two experimental components in the target experiment configuration interface and determining the selected at least two experimental components as a target experimental component pack; the target experiment configuration interface comprises a plurality of experiment components, and each experiment component is used for realizing at least one function;

the configuration unit is used for responding to a configuration command aiming at the target experiment component package, configuring target parameters for each target experiment component in the target experiment component package and configuring a target incidence relation among the target experiment components;

and the processing unit is used for responding to an execution command aiming at the target experiment component package, determining a target calculation strategy corresponding to the target association relation based on the corresponding relation between the preset association relation and the calculation strategy, and obtaining and displaying an experiment result according to the target parameter and the target calculation strategy.

Optionally, the apparatus further comprises:

the display unit is used for responding to a selected command aiming at a target subject in the plurality of subjects and displaying a target experiment configuration interface corresponding to the target subject.

Optionally, the display unit is specifically configured to:

Optionally, the configuration unit is specifically configured to:

Optionally, the target experiment component package is saved.

Optionally, the experimental apparatus further comprises:

the verification unit is used for verifying the correctness of the configured target parameters of the target experimental components and the rationality of the configured target association relation among the target experimental components;

and the output unit is used for outputting alarm information when the verification result is determined to be not passed, wherein the alarm information is used for indicating that the correctness of the configured target parameters of the target experimental components does not meet the requirement and/or the reasonability of the configured target association relation between the target experimental components does not meet the requirement.

In a third aspect, an embodiment of the present application provides an electronic device, where the electronic device includes a processor and a memory, and the processor is configured to implement the steps of the method according to any one of the embodiments of the first aspect when executing a computer program stored in the memory.

In a fourth aspect, the present application provides a computer-readable storage medium, on which a computer program is stored, where the computer program, when executed by a processor, implements the steps of the method according to any one of the embodiments of the first aspect.

Drawings

FIG. 1 is a schematic flow chart of an experiment implementation method provided in an embodiment of the present application;

FIG. 2 is a schematic diagram of a target experiment configuration interface provided in an embodiment of the present application;

FIG. 3 is a schematic diagram of a target assay kit provided in an embodiment of the present application;

FIG. 4 is a schematic structural diagram of an experiment device according to an embodiment of the present disclosure;

fig. 5 is a schematic structural diagram of an electronic device according to an embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments.

In the prior art, a teacher usually visually shows a certain knowledge point of a certain subject to students based on a Flash animation form, but the Flash animation is difficult to make and has high requirements for professional skills.

In view of this, the embodiment of the present application provides an experiment implementation method, in which a user can show an experiment result in an animation form only by selecting a relevant experiment component and configuring a corresponding target parameter and a target association relationship, and compared with a method for making a Flash animation in the prior art, the method is simpler and more convenient to operate and has a lower requirement on professional skills.

The technical solutions provided by the embodiments of the present application are described below with reference to the accompanying drawings. Referring to fig. 1, the embodiment of the present application provides an experimental implementation method, and the flow of the experimental implementation method is described as follows:

step 101: responding to a selection command aiming at least two experimental components in a target experiment configuration interface, and determining the selected at least two experimental components as a target experimental component pack; the number of the target experiment component packages is at least one, the target experiment configuration interface comprises a plurality of experiment components, and each experiment component is used for realizing at least one function.

In the embodiment of the application, when a user needs to perform a certain experiment of a certain subject, for example, a mechanical experiment in physics, or an organic chemical experiment or an inorganic chemical experiment in chemistry, experiment components required by the experiment to be performed currently can be selected in an experiment platform, and corresponding parameters and logics are configured for the experiment components, so that the difficulty of performing the experiment by the user is simplified.

As a possible implementation manner, a developer of the experiment platform may design a plurality of experiment components in the experiment platform in advance according to experiment requirements, and configure initial parameters and logic for the experiment components. For example, the shape, color, transparency, name, usage, attribute, value, associated component, value range, unit, and the like of the corresponding experimental component may be set, and in actual use, the user only needs to drag (select, copy, click, and the like) the corresponding experimental component to the display interface of the experimental platform, which is not described in detail herein.

As a possible embodiment, a target experiment configuration interface in the experiment platform includes a plurality of experiment components, and it should be understood that the plurality of experiment components covers different disciplines, that is, experiment components required by different disciplines are all presented on the target experiment configuration interface, and a user can select experiment components of a single discipline from the target experiment configuration interface (for example, the selected experiment components all belong to a physical discipline) or experiment components of an intersecting discipline from the target experiment configuration interface (for example, the selected experiment components are partly physical and partly chemical). Each experimental assembly is used for realizing at least one function, for example, for the experimental assembly of a beaker, a preset volume of liquid can be measured, the carried liquid can be heated by an alcohol lamp, and chemical reaction experiments of different substances can be carried out.

For example, please refer to fig. 2, which is a schematic diagram of a target experiment component configuration interface according to an embodiment of the present application. In FIG. 2, the squares represent physics, and the different fill patterns represent the various experimental components that are required to be used to perform a physics experiment; circles represent mathematics, and different fill patterns represent the various experimental components that need to be used to perform the mathematical experiments; the triangles represent chemistry, and the different fill patterns represent the various experimental components that need to be used to perform the chemical experiments; the diamonds represent the creatures and the different fill patterns represent the various experimental components that are required to perform the biological experiments. Of course, the identification icon of each subject can be set by user according to the user's preference, and can be selected from a pre-stored good icon library, which is not described in detail.

When a user selects a relevant experimental component on the experimental platform, the experimental platform may respond to a selection command for at least two experimental components in the target experimental configuration interface and determine the selected at least two experimental components as a target experimental component package. In some cases, the conclusion cannot be reached through a single experiment, and a contrast experiment is often needed to be set, so that the number of the target experiment component packs is determined to be at least one. For example, when a circuit experiment is performed, two similar circuits are adopted, the difference is that the values of some components are different, in order to observe the experiment difference of the two circuits more obviously and intuitively, two experiment component packages can be set in the same experiment interface, and each experiment component package corresponds to one circuit. Therefore, the reaction of the two circuits can be visually judged, for example, the starting time of the bulb in the circuit 1 is 5 seconds earlier than the starting time of the bulb in the circuit 2, or the heating degree of the bulb in the circuit 1 is more serious than the heating degree of the bulb in the circuit 2, and the like, and details are not repeated.

It should be understood that the current target experiment configuration interface may include, in addition to the first area for presenting the plurality of experiment components, a second area for displaying the experiment results, to which at least two experiment components selected by the user may be moved by a dragging operation, but of course, at least two experiment components selected by the user may also be automatically generated in the second area, and there is no particular limitation here.

In some possible embodiments, when there is no experiment component required by the user in the experiment platform, the user can also combine to form a new component according to the own requirement by using the characteristics of other components, for example, a varistor can be formed by using resistors and wires, and the expansibility and flexibility of the experiment platform are ensured. Moreover, the new components generated by the user-defined combination can also be uploaded to a component library for storage, so that the new components can be used by people in the following period, which is not described in detail.

In addition, for the new components uploaded by the user-defined method, the new components uploaded by the user-defined method can be optionally added into a preset component ledger, such as an electrical component, a chemical component, a geometric component, a biological component, and the like.

In some embodiments, considering that the experiment to be performed currently by the user belongs to an experiment of a single subject, for example, the experiment to be performed currently is a mechanical experiment and belongs to a physical category, at this time, if the target experiment configuration interface further includes experiment components of other subjects, it is not beneficial for the user to search for the required experiment components, so that the experiment efficiency is reduced. Therefore, in the embodiment of the present application, the currently displayed target experiment configuration interface corresponds to a target subject, which may be regarded as a subject to which an experiment to be currently performed belongs, so that an experiment component required by the experiment to be currently performed can be quickly found from the current target experiment configuration interface.

Of course, if an experiment needs an experiment component of other disciplines in addition to the experiment component of the current discipline, the required experiment component may be selected from other experiment interfaces by means of a search key, or a navigation bar, an experiment component classification table, and the like, which is not described in detail herein.

As one possible implementation, when the user selects a target subject from the plurality of subjects, the experiment platform may respond to a selection command for the target subject from the plurality of subjects, and may then present an experiment configuration interface corresponding to the target subject. For example, the target discipline includes at least one of mathematics, biology, physics, and chemistry.

Considering that for any one of the above disciplines, taking physics as an example, the included sub-fields relate to mechanics, electromagnetics, magnetics, thermals, etc., and the difference between each sub-field is large, the experimental components used when performing the experiment of each sub-field are different. Therefore, in the embodiment of the application, the currently displayed target experiment configuration interface can display the experiment components required by the experiment in the sub-field of the target subject, so that the experiment components required by the experiment to be currently implemented can be quickly found from the current target experiment configuration interface.

As a possible implementation manner, the experiment platform may display an initial interface corresponding to the target subject, where the initial interface includes at least two candidate experiment types, and each candidate experiment type corresponds to one sub-field in the target subject. When a user selects any one of the candidate experiment types in the initial interface, the experiment platform can respond to a selection command for any one of the candidate experiment types in the initial interface, take the selected candidate experiment type as a target experiment type, and then display a target experiment configuration interface corresponding to the target experiment type.

For example, if the target subject is mathematics and the at least two candidate experiment types include plane geometry and solid geometry, when the target experiment type is determined to be plane, the target experiment configuration interface corresponding to the plane geometry is displayed; and when the target experiment type is determined to be the solid time, displaying a target experiment configuration interface corresponding to the solid geometry.

For another example, the target subject is chemical, and the at least two candidate experiment types include organic chemistry and inorganic chemistry, and when the target experiment type is determined to be organic chemistry, the target experiment is displayed to a target experiment configuration interface corresponding to the organic chemistry; when the target experiment type is determined to be inorganic chemistry, a target experiment configuration interface corresponding to the inorganic chemistry is displayed.

For another example, the target subject is physics, and the at least two candidate experiment types include mechanics, thermodynamics and electromagnetism, and when the target experiment type is determined to be mechanics, the target experiment configuration interface corresponding to the mechanics is displayed; when the target experiment type electromagnetism is determined, displaying a target experiment configuration interface corresponding to the electromagnetism; when the target experiment type thermodynamics is determined, a target experiment configuration interface corresponding to the thermodynamics is displayed.

Step 102: and responding to a configuration command aiming at the target experiment component package, configuring target parameters for each target experiment component in the target experiment component package, and configuring a target incidence relation among the target experiment components.

After at least one target experiment component package is determined, for each target experiment component package, an experiment result cannot be directly displayed in an animation form, and therefore, in the embodiment of the application, relevant configuration needs to be performed on each target experiment component in the target experiment components, so that the target experiment component package can present an experiment effect required by a user.

As a possible implementation manner, when the user configures the target experiment component package, the experiment platform may configure target parameters for each target experiment component and configure a target association relationship between each target experiment component in response to a configuration command for the target experiment component package.

In view of the fact that different experimental components in the target experimental component package have different configuration requirements, part of the experimental components can be configured in a unified manner, and part of the experimental components can only be configured individually, so that in the embodiment of the application, corresponding target parameters and target association relations can be configured in batches for a plurality of target experimental components according to actual requirements, and meanwhile, the target parameters and the target association relations can also be configured individually for a single target experimental component, so that the configuration process is flexible.

Specifically, for the batch configuration process, the experiment platform may respond to the batch configuration instruction for at least two target experiment components in the target experiment component package, so as to configure corresponding target parameters for the at least two target experiment components in batch, and configure association relationships between each target experiment component in the at least two target experiment components and other target experiment components in batch, that is, the target parameters and the target association relationships may be configured uniformly for experiment components of the same type or experiment components of different types having the same attribute.

For a single configuration process, the experiment platform responds to configuration instructions for a single target experiment component in the target experiment component package, configures corresponding target parameters for the single target experiment component, and configures association relations between the single target experiment component and other target experiment components.

It should be understood that the corresponding target parameter is configured for each target experiment assembly to give specific physical meaning to the target experiment assembly, for example, if the target experiment assembly is a slide block, the target parameter may be an initial velocity (horizontal initial velocity or vertical initial velocity) of the slide block, or may be a weight of the slide block; if the target experimental component is a liquid, the target parameter may be a density of the liquid, a volume of the liquid, or a specific heat capacity of the liquid. Of course, the target parameters may be configured for each target experiment component according to actual needs, and are not limited herein.

The target association relationship between the target experiment components is configured so that different target experiment components can be linked based on target parameters configured by the different target experiment components. For example, if an experiment is to be performed in which a slider configured with a horizontal initial velocity slides on a horizontal rail configured with a friction force, after a target parameter (horizontal initial velocity) of the slider and a target parameter (horizontal rail length and friction coefficient) of the horizontal rail are configured, respectively, an association relationship between the slider and the horizontal rail needs to be established, and only after the association relationship is established, it can be considered that the friction force existing in the horizontal rail affects the operation process of the slider. I.e. the speed of the slide will decrease until it stops, as a result of the friction against the slide. Of course, the target association relationship between the target experiment components can be set according to the actual situation, and is not particularly limited herein.

In some embodiments, after configuring corresponding target parameters and target association relations for each target experiment in the target experiment assembly package, the experiment platform may determine the target parameters and the target association relations, and if there is a place that does not meet the requirements, prompt the user so that the user may reconfigure the target parameters and/or the target association relations.

As a possible implementation manner, the experiment platform may verify correctness of the configured target parameters of the target experiment components and rationality of the configured target association relationships between the target experiment components, and if it is determined that the result of the verification is failed, may output alarm information, where the alarm information may be used to indicate that the correctness of the configured target parameters of the target experiment components does not meet the requirement and/or that the rationality of the configured target association relationships between the target experiment components does not meet the requirement.

For example, when a circuit experiment is performed, if a certain component in the circuit is not associated with other components, so that the whole path is obstructed, the verification result can be regarded as not passing, and thus the user can be prompted, and a lead and the like can be added between the component and other components by the user, which is not described in detail herein.

As a possible implementation mode, common experiment assembly packages can be configured in the experiment platform in advance, and a user can directly search the experiment assembly packages to perform experiments without building the experiment assembly packages, so that the requirements of the user are met, and the efficiency is improved. After reconfiguration, each experimental component package may be saved again, which is not described in detail herein.

It should be understood that the correctness of the target parameter refers to determining whether the format of the configured target parameter is correct, whether the unit is correct, and the like; the reasonability of the target association relation refers to judging whether linkage display is needed between two target experimental components, and if the linkage display is not needed, the configured target association relation is unreasonable.

Step 103: and responding to an operation command aiming at the target experiment component package, determining a target calculation strategy corresponding to the target association relation based on the corresponding relation between the preset association relation and the calculation strategy, and obtaining and displaying an experiment result according to the target parameters and the target calculation strategy.

In the embodiment of the application, after the corresponding target parameters and the target association relation are correspondingly configured for each target experiment in the target experiment assembly package, the experiment result can be displayed by operating the target experiment assembly package.

As a possible implementation manner, the experiment platform stores in advance a corresponding relationship between the association relationship and the calculation policy, and the calculation policy may be considered as a specific display effect that needs to be presented at a specific time based on the target parameters of at least two target experiment components in the target experiment component package. When a user sends an operation command to the target experiment component package, the experiment platform can respond to the operation command for the target experiment component package, and then can determine a target calculation strategy corresponding to the target association relation based on the corresponding relation between the preset association relation and the calculation strategy, namely, the target display effect required to be presented at the target moment of the target parameters of at least two target experiment components in the target experiment component package. And then, obtaining and displaying an experimental result according to the target parameters and the target calculation strategy.

In some embodiments, in order to avoid the same teacher repeatedly generating the same target experiment component package, the user may be allowed to save the target experiment component package after the user generates the target experiment component package for the first time, considering that some classical experiments may be performed multiple times, for example, the same teacher may give lessons to students of multiple classes in different time periods. If the teacher needs to carry out the same experiment for multiple times in the later period, the saved target experiment component package can be directly operated; if teachers need to implement some improved experiments in the later period, modification can be performed on the basis of the stored target experiment assembly package, so that time is saved, and experiment efficiency is improved.

The following will specifically describe the implementation of the experiment by taking a physical experiment as an example.

First, the user needs to clarify the purpose of the experiment, for example, the purpose of the experiment is to visually demonstrate the influence of different initial speeds of the object on the sliding distance under the condition that the friction force is the same through two sets of experiments. After the purpose of the experiment is determined, a user can select two experiment components (a slider and a track) in a target experiment configuration interface, and then one slider and one track are determined to be a target experiment component package, namely two target experiment component packages need to be established in the experiment. For example, referring to fig. 3, the target experiment kit 1 includes a slide 1 and a track 1, and the target experiment kit 2 includes a slide 2 and a track 2. Then, respectively configuring target parameters and target association relations for the slider 1 and the track 1 in the target experiment assembly package 1, and configuring target parameters and target association relations for the slider 2 and the track 2 in the target experiment assembly package 2, for example, with reference to fig. 3, the target parameter of the slider 1 is an initial speed (5m/s) of the slider 1, the target parameter of the track 1 is a length (30m) of the track, and the target association relation between the slider 1 and the track 1 is that the slider 1 makes a sliding motion on the horizontal track 1 at a specific horizontal initial speed (i.e., the slider 1 and the horizontal track 1 need to be displayed in a linkage manner), and a friction force between the slider 1 and the track 1 is 2N; the target parameter of the slider 2 is an initial speed (3m/s) of the slider 2, the target parameter of the track 2 is a length (30m) of the track, the target association relationship between the slider 2 and the track 2 is that the slider 2 slides on the horizontal track 2 at a specific horizontal initial speed (namely, the slider 2 and the horizontal track 2 need to be displayed in a linkage manner), and the friction force between the slider 2 and the track 2 is 2N. And then, the target experiment component package 1 and the target experiment component package 2 can be respectively operated, because the target incidence relations configured by the two target experiment component packages are the same, the same target calculation strategy can be called, and then the corresponding experiment results can be determined and displayed by combining respective target parameters. That is, since the initial speed of the slider 1 is greater than the initial speed of the slider 2, the sliding distance of the slider 1 on the track 1 is greater than the sliding distance of the slider 2 on the track 2 under the condition that the friction force applied to the slider 1 and the friction force applied to the slider 2 are the same, so that the following conclusion can be reached: when the friction force is the same, the greater the initial speed of the object, the greater the sliding distance.

Referring to fig. 4, based on the same inventive concept, the embodiment of the present application further provides an experiment implementation apparatus, including: a determination unit 201, a configuration unit 202 and a processing unit 203.

The determining unit 201 is configured to respond to a selection command for at least two experimental components in the target experimental configuration interface, and determine the selected at least two experimental components as a target experimental component package; the target experiment configuration interface comprises a plurality of experiment components, and each experiment component is used for realizing at least one function;

a configuration unit 202, configured to respond to a configuration command for a target experiment component package, configure target parameters for each target experiment component in the target experiment component package, and configure a target association relationship between each target experiment component;

the processing unit 203 is configured to respond to an execution command for the target experiment component package, determine a target calculation policy corresponding to the target association relationship based on a corresponding relationship between a preset association relationship and a calculation policy, and obtain and display an experiment result according to the target parameter and the target calculation policy.

Optionally, the apparatus further comprises:

and the display unit is used for responding to a selected command aiming at a target subject in the plurality of subjects and displaying a target experiment configuration interface corresponding to the target subject.

Optionally, the display unit is specifically configured to:

displaying an initial interface corresponding to a target subject, wherein the initial interface comprises at least two alternative experiment types, and each alternative experiment type corresponds to one sub-field in the target subject;

Optionally, the configuration unit 202 is specifically configured to:

responding to batch configuration instructions aiming at least two target experiment components in the target experiment component package, configuring corresponding target parameters for the at least two target experiment components in batches, and configuring the incidence relation between each target experiment component in the at least two target experiment components and other target experiment components in batches; and/or the presence of a gas in the gas,

Optionally, the target experiment kit is saved.

Optionally, the apparatus further comprises:

and the output unit is used for outputting alarm information when the verification result is determined to be not passed, wherein the alarm information is used for indicating that the correctness of the target parameters configured by each target experiment component does not meet the requirement and/or the reasonability of the configured target association relation between each target experiment component does not meet the requirement.

Referring to fig. 5, based on the same inventive concept, an embodiment of the present application further provides an electronic device, where the electronic device includes at least one processor 301, and the processor 301 is configured to execute a computer program stored in a memory to implement the steps of the experiment implementation method shown in fig. 1 provided in the embodiment of the present invention.

Alternatively, the processor 301 may be specifically a central processing unit, a specific ASIC, and may be one or more integrated circuits for controlling the execution of programs.

Optionally, the electronic device may further comprise a memory 302 connected to the at least one processor 301, the memory 302 may comprise ROM, RAM and disk memory. The memory 302 is used for storing data required by the processor 301 during operation, that is, storing instructions executable by the at least one processor 301, and the at least one processor 301 executes the method shown in fig. 1 by executing the instructions stored in the memory 302. The number of the memories 302 is one or more. The memory 302 is also shown in fig. 5, but it should be understood that the memory 302 is not an optional functional module, and is therefore shown in fig. 5 by a dotted line.

The entity devices corresponding to the determining unit 201, the configuring unit 202, and the processing unit 203 may be the processor 301. The electronic device may be configured to perform the method provided by the embodiment shown in fig. 1. Therefore, regarding the functions that can be realized by the functional modules in the electronic device, reference may be made to the corresponding description in the embodiment shown in fig. 1, which is not repeated herein.

Embodiments of the present invention also provide a computer storage medium, where the computer storage medium stores computer instructions, and when the computer instructions are executed on a computer, the computer is caused to execute the method as described in fig. 1.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present application without departing from the spirit and scope of the application. Thus, if such modifications and variations of the present application fall within the scope of the claims of the present application and their equivalents, the present application is intended to include such modifications and variations as well.

Claims

1. A method of conducting an experiment, the method comprising:

responding to an operation command aiming at the target experiment assembly package, determining a target calculation strategy corresponding to the target association relation based on the corresponding relation between the preset association relation and the calculation strategy, and obtaining and displaying an experiment result according to the target parameter and the target calculation strategy.

2. The method of claim 1, wherein prior to responding to selected commands for at least two experimental components in a target experimental configuration interface, the method further comprises:

3. The method of claim 2, wherein presenting a target experiment configuration interface corresponding to a target subject of the plurality of subjects in response to a selected command for the target subject comprises:

4. The method of claim 2, wherein the target discipline comprises at least one of mathematics, biology, physics, and chemistry.

5. The method of claim 1, wherein configuring target parameters for each target experiment component in the target experiment component package in response to a configuration command for the target experiment component package, and configuring target associations between each target experiment component comprises:

6. The method of claim 1, wherein the target assay package is saved.

7. The method of claim 1, wherein prior to obtaining the experimental results, the method further comprises:

8. An apparatus for performing an experiment, the apparatus comprising:

the receiving unit is used for responding to a configuration command aiming at the target experiment component package, configuring target parameters for each target experiment component in the target experiment component package and configuring a target incidence relation among the target experiment components;

9. An electronic device, characterized in that the electronic device comprises at least one processor and a memory connected to the at least one processor, the at least one processor being configured to implement the steps of the method according to any of claims 1-7 when executing a computer program stored in the memory.

10. A computer-readable storage medium, on which a computer program is stored which, when being executed by a processor, carries out the steps of the method according to any one of claims 1 to 7.